by jboullion | Nov 9, 2009 | Uncategorized
From the page of Active Installation Date on the Web site of We Energies:
We Energies Renewable Energy Development Program partners with Fat Spaniel Technologies to show real-time production data from solar photovoltaic, solar hot water and wind renewable energy generation systems in the We Energies service territory.
The Web page has links to the data on renewable energy production at the following installations:
Solar Electric Photovoltaic
Ascension Lutheran Church
Cooper School
Energy Producing Home
GE Healthcare
GE Research Park
HOPE Christian School
Johnson Foundation
Kettle Moraine Lutheran High School
Milwaukee Area Tech College – Oak Creek
Milwaukee Metropolitan Sewer District
MSOE: Fat Spaniel Tech MSOE Monitor
North Shore Presbyterian Church
Our Savior Lutheran Church
Outpost Natural Foods
Racine City Hall Annex
Racine Eco Justice Center
St. Matthew’s Evangelical Lutheran Church
Shoreland Lutheran High School
Shorewood School District
Still Point Zen Center
The Order of Julian Norwich
Town of Menasha
Unitarian Universalist Church West
United Community Center
University of Wisconsin Milwaukee
University of Wisconsin – Parkside
Urban Ecology Center
Village of Wind Point
Walden III Middle and Senior High School
Waukesha Area Technical College
Wisconsin State Fair Park
Solar Water Heating
Fort Atkinson High School Solar Thermal
Fort Atkinson Middle School Solar Thermal
Milwaukee Habitat for Humanity SHW 1
Milwaukee Habitat for Humanity SHW 2
We Energies HQ: Fat Spaniel Tech Wired Solar
Solar Electric Photovoltaic and Wind
Discovery World
Lakeshore Technical College
Milwaukee Area Tech College – Mequon
by jboullion | Nov 6, 2009 | Uncategorized
From a guest column by Al Gedicks in the Green Bay Press Gazette:
The argument that nuclear power can contribute to reducing harmful greenhouse gas emissions that cause global climate change (“Ban on new nuclear power plants should be lifted” Oct. 16, Green Bay Press-Gazette) is flawed for three main reasons.
First, nuclear power is not carbon-free electricity. At each stage of the nuclear fuel cycle, from uranium mining, milling, enrichment to construction, decommissioning and waste storage, nuclear power uses fossil fuels and contributes greenhouse gas emissions that accelerate global climate change. Compared to renewable energy, nuclear power releases four to five times the CO2 per unit of energy produced.
A recent study of solutions to global warming by Dr. Mark Z. Jacobson of Stanford University concluded that over its entire lifecycle, nuclear electricity emits between 68 and 180 grams of CO2-equivalent emissions per kilowatt hour, compared to 3 to 11 grams for wind and concentrated solar.
by jboullion | Nov 5, 2009 | Uncategorized
A news release issued by Wisconsin Farmers Union:
Chippewa Falls, Wis. – The Wisconsin Farmers Union and other Homegrown Renewable Energy Campaign partners will host a bus tour on Nov. 13 to highlight the benefits of four homegrown renewable energy policies promoted by the campaign and the opportunities for clean energy jobs in Wisconsin.
The four signature partners of the activities are Wisconsin Farmers Union, the Michael Fields Agricultural Institute, Clean Wisconsin and RENEW Wisconsin. The Department of Agriculture Trade and Consumer Protection and the Office of Energy Independence are co-sponsors of the event.
The bus tour will begin at 9 a.m. at the Montfort Wind Farm, 254 Highway 18, Montfort, Wis. The wind farm is an example of one way to reduce carbon emissions and emphasizes the campaign’s advocacy for a Low-Carbon Fuel Standard. A LCFS calls for a reduction in carbon emissions from transportation fuels, based on the carbon content of all fuels, and the transformation of the market.
The Fuels for Schools and Communities Program and the Biomass Crop Reserve Program will be addressed at the second stop on the tour – at the Meister Cheese Plant, 1160 Industrial Drive, Muscoda, Wis. The cheese plant uses a wood-chip heating system. Research at the University of Wisconsin will also be highlighted demonstrate the prospects for Wisconsin farmers to grow biomass crops.
Providing funding for schools and communities to install renewable energy projects that use biomass crops will create demand for renewable energy. The Biomass Crop Reserve Program provides incentives for farmers to meet that demand by growing biomass crops.
The third stop will be at the Cardinal Glass factory in Mazomanie, Wis. Cardinal Glass is one of the leading suppliers of glass for solar panels. The stop is an example of how homegrown renewable energy can provide jobs for Wisconsin.
Renewable energy buyback rates, the fourth component of the Homegrown Renewable Energy Campaign, will set utility payments for small renewable energy producers who want to feed energy into the electric grid. The tour will stop at a residential home in Ridgeway, Wis. using solar panels to feed electricity into the grid.
The bus will return to the Montfort Wind Farm at 5 p.m.
To register for the Homegrown Renewable Energy Campaign Bus Tour, contact Mike Stranz, WFU Government Relations Specialist, by Nov. 9 at 608-256-6661 or email mstranz@wisconsinfarmersunion.com. A $10 registration fee, payable by cash or check the day of the event, covers the cost of the tour, lunch and snacks.
CLICK HERE for more information on the Homegrown Renewable Energy Bus Tour.
by jboullion | Nov 4, 2009 | Uncategorized
From an article by Steve Sharp in the Watertown Daily Times:
JOHNSON CREEK – The operator of the massive Deer Track Park Landfill in the town of Farmington is continuing its exploration and implementation of new technologies to recover energy from waste stored at the site, as well as at others.
According to representatives of Waste Management, which operates the Deer Track Park Landfill, gas from a California landfill is being transformed into liquefied natural gas to power recycling and waste collection vehicles. This is a project a Waste Management of Wisconsin official said signals a growing national interest in harvesting renewable energy from everyday waste.
Waste Management, Inc., North America’s largest waste services company, and Linde North America, a leading global gases and engineering company, announced this week that their joint venture company has begun producing clean, renewable vehicle fuel from gas recovered at Waste Management’s Altamont Landfill near Livermore, Calif. The facility is North America’s largest one converting landfill gas to liquefied natural gas.
In Wisconsin, Waste Management generates electricity from gas it collects at landfills it owns in Jefferson, Green Lake, Kenosha, Manitowoc, Milwaukee, Rusk, Washington and Waukesha counties.
“The California project is a great example of how we can recover resources in waste, protect the environment and reduce our dependence on fossil fuels,” Todd Hartman, director of disposal operations overseeing Waste Management’s landfills in Wisconsin and Michigan’s Upper Peninsula said. “The demand for green energy is leading us to innovative technologies for capturing the renewable energy that’s as close as your kitchen trash can.”
by jboullion | Nov 4, 2009 | Uncategorized
A workshop announcement from The Energy Center of Wisconsin:
Tuesday, November 10, 2009
Holiday Inn Campus Area
2703 Craig Road
Eau Claire, WI 54701
715.835.2211
Agenda
Half-day training
8:00 am—Registration & Continental breakfast
8:30 am–12:00 pm—Program (breaks provided)
Learn about the renewable energy technologies you can use in your business, new building or commercial-scale development.
This program provides a solid background in renewable energy technologies for commercial-scale applications. Get an overview of renewable energy, from an exploration of the benefits, to a view of technologies that work well in Wisconsin’s northern climate. Learn how renewable energy technologies fit into the LEED™ design process and the software tools used for assessing renewable energy potential. Find out about design considerations, potential system performance, and the economics of installing a system in today’s solar market.
Participants will also be introduced to renewable energy systems that generate heat for space and process heating. Technologies covered include solar heating of water and makeup air, heating systems that use wood and other biomass as fuel, and ground source heat pumps.
